Biochemical engineering

Mechanoluminescence in Organic and Inorganic Compounds: Basic Concepts, Instrumentation, and Applications provides a comprehensive overview of mechanoluminescence for newly qualified researchers and scientists across multiple related fields.

Bread and leavened bakery products have been essential to human nourishment for millennia.

Rapid changes and significant progress have been made in the Agrobacterium field, such as genetically transforming plants for both basic research purposes and agricultural development.

This Volume presents generic protocols for wet experimental and computer-based systems and synthetic biology approaches relevant to the field of hydrocarbon and lipid microbiology.

Oxides for Medical Applications reviews the most important advances of oxides with optical, magnetic and electronic properties for biomedical applications.

There is growing interest in the food, supplements, cosmetics, and pharmaceutical industries in improving the healthiness of their products by incorporating lipophilic bioactive substances like oil-soluble vitamins (A, D and E), omega-3 fatty acids, and nutraceuticals (carotenoids, curcuminoids and flavonoids).

* Gathers together more than 150 feeding studies with food-producing animals and covers both first and second generation transgenic plants* The first central resource of this information for researchers, students and policy makers* Includes contributions from a wide range of specialists in the field

Microbial technology plays an integral role in the biotechnology, bioengineering, biomedicine/biopharmaceuticals and agriculture sector.

Describing recent developments in the engineering and generation of plants as production platforms for biopharmaceuticals, this book includes both vaccines and monoclonal antibodies.

Genome sequencing has become a basic tool of plant and animal breeding.

Genome sequencing has become a basic tool of plant and animal breeding.

Since the first edition of this book was published in 2002, the field of quantitative genetics, genomics and breeding has changed markedly.

Since the first edition of this book was published in 2002, the field of quantitative genetics, genomics and breeding has changed markedly.

This is a hands-on, practical guide to general and specific practices in oil palm nurseries to produce healthy, vigorous and uniform plants ready for field planting.

This is a hands-on, practical guide to general and specific practices in oil palm nurseries to produce healthy, vigorous and uniform plants ready for field planting.

This is a hands-on practical guide to the use of Trichoderma as a biocontrol, as part of sustainable disease control measures for Ganoderma disease in oil palm plantations.

This is a hands-on practical guide to the use of Trichoderma as a biocontrol, as part of sustainable disease control measures for Ganoderma disease in oil palm plantations.

This is a hands-on, practical guide to describe field trials in oil palm breeding.

This is a hands-on, practical guide to describe field trials in oil palm breeding.

This is a hands-on, practical guide to describe physical bunch and oil analysis of oil palm.

This is a hands-on, practical guide to describe physical bunch and oil analysis of oil palm.

The development of transgenic crops is revolutionary, but what does it mean for food production, prices and the environment?

The development of transgenic crops is revolutionary, but what does it mean for food production, prices and the environment?

The book presents a comprehensive overview of the historical, current, and prospective application realms of nanobiotechnological research pertaining to graphene, a carbon-based nanomaterial, and its diverse forms in the fields of food and agriculture, as well as health sciences and technology.

Cellulose nanoparticles (CNP) are a class of bio-based nanoscale materials, which are of interest due to their unique structural features and properties such as biocompatibility, biodegradability, and renewability.

Cellulose nanoparticles (CNP) are a class of bio-based nanoscale materials, which are of interest due to their unique structural features and properties such as biocompatibility, biodegradability, and renewability.

Cellulose nanoparticles (CNP) are a class of bio-based nanoscale materials, which are of interest due to their unique structural features and properties such as biocompatibility, biodegradability, and renewability.

Cellulose nanoparticles (CNP) are a class of bio-based nanoscale materials, which are of interest due to their unique structural features and properties such as biocompatibility, biodegradability, and renewability.

Advances in molecular biology and biotechnology are increasing at a rapid pace, both in the development of new methodologies and in their practical applications.

Microfluidic technology is revolutionising a number of scientific fields, including chemistry, biology, diagnostics, and engineering.

The second edition of this popular title presents the most exciting approaches for engineering biologically active nanostructures.

Immunosensors are widely used and are particularly important for fast diagnosis of diseases in remote environments as well as point-of-care devices.

The extracellular matrix (ECM) is the focus of much interest in biology and bioengineering.

So long as you have food in your mouth, you have solved all questions for the time being.

The transportation industry is still largely reliant on fossil fuels, whose use and extraction have significant environmental costs.

Immunosensors are widely used and are particularly important for fast diagnosis of diseases in remote environments as well as point-of-care devices.

In recent years bioprocessing has increased in popularity and importance, however, bioprocessing still poses various important techno-economic and environmental challenges, such as product yields, excessive energy consumption for separations in highly watery systems, batch operation or the downstream processing bottlenecks in the production of biopharmaceutical products.

Significant progress has been made in recent years in quenched-phosphorescence oxygen sensing, particularly in the materials and applications of this detection technology that are open to commercialization, like uses in brain imaging and food packaging.

The synergy between synthetic biology and biocatalysis is emerging as an important trend for future sustainable processes.

Reactive inkjet printing uses an inkjet printer to dispense one or more reactants onto a substrate to generate a physical or chemical reaction to form a product in situ.

Significant progress has been made in recent years in quenched-phosphorescence oxygen sensing, particularly in the materials and applications of this detection technology that are open to commercialization, like uses in brain imaging and food packaging.

Diatoms are single cell algae composed of silica.

Biotechnology harnesses cellular and biochemical systems to advance knowledge of the molecular cause of disease and to provide new diagnostic tools and more precisely targeted drugs.

Providing an updated summary of the application of different types of sensors for the analysis of food safety and quality, this book discusses the core principles, current research status, challenges and successful examples for each technology.

Magnetic nanomaterials have undergone a significant evolution during the past decade, with supramolecular nanoparticle organization reaching unprecedented levels of complexity and the materials providing new approaches to treating cancer.

Providing an updated summary of the application of different types of sensors for the analysis of food safety and quality, this book discusses the core principles, current research status, challenges and successful examples for each technology.

Reactive inkjet printing uses an inkjet printer to dispense one or more reactants onto a substrate to generate a physical or chemical reaction to form a product in situ.

The synergy between synthetic biology and biocatalysis is emerging as an important trend for future sustainable processes.

Magnetic nanomaterials have undergone a significant evolution during the past decade, with supramolecular nanoparticle organization reaching unprecedented levels of complexity and the materials providing new approaches to treating cancer.

In recent years bioprocessing has increased in popularity and importance, however, bioprocessing still poses various important techno-economic and environmental challenges, such as product yields, excessive energy consumption for separations in highly watery systems, batch operation or the downstream processing bottlenecks in the production of biopharmaceutical products.